CN106193179A - Train wheel ultrasonic fault detection system and coupling water water feeding and draining device thereof - Google Patents

Abstract

The invention discloses a kind of train wheel ultrasonic fault detection system and coupling water water feeding and draining device thereof, this coupling water water feeding and draining device includes: for storing the coupling water tank of coupling water；It is connected with coupling water tank, and coupling water can be caused the tread water-supply structure of tread probe；It is connected with coupling water tank, and coupling water can be caused the inner side water-supply structure popped one's head in inside probe and second inside first；For reclaiming the recovery structure of coupling water；Wherein, tread water-supply structure includes: with the tread water main coupling water tank connection, the distributive pipe that at least two connects with tread water main, distributive pipe is provided with the hole for water spraying to tread probe water spray.The coupling water water feeding and draining device of train wheel ultrasonic fault detection system disclosed by the invention, by the tread water main arranged with couple water tank connection, the distributive pipe connected with tread water main, and this distributive pipe is provided with hole for water spraying, achieve central water supply, be effectively simplified structure, improve production efficiency.

Description

Train wheel ultrasonic fault detection system and coupling water water feeding and draining device thereof

Technical field

The present invention relates to train wheel ultrasonic examination technical field, more particularly, it relates to a kind of train wheel is ultrasonic Wave inspection system and coupling water water feeding and draining device thereof.

Background technology

The main ultrasonic examination technology that uses of train wheel flaw detection, main employing tread probe and inner side probe are examined Survey, this tread probe with wheel to tread laminating detect, pop one's head in inside this with take turns the inner side to wheel rim fit detect, Inside this probe be two and respectively detection same wheel to two wheels.Wherein, the wheel inner side to wheel rim, refer to two cars In wheel, a wheel is near the side of another wheel.

Tread probe and inner side probe all include some probes, during flaw detection, need coupling water is caused probe Test surface, to realize flaw detection.At present, all probes all carry out coupling the supply of water by independent way of supplying water, specifically, each Water supply path it is equipped with on probe.

Above-mentioned independent way of supplying water, needs to arrange water supply path and drainage path on the fixture of each probe, and structure is relatively Complexity, produces more complicated, causes production efficiency relatively low.

Further, since be provided with water supply path and drainage path, the most in use water outlet on the fixture of each probe Mouth is easier to be coupled the impurity blocking of water.

In sum, how to probe supply coupling water, to simplify structure, improve production efficiency, be current this area skill Art personnel's problem demanding prompt solution.

Summary of the invention

It is an object of the invention to provide the coupling water water feeding and draining device of a kind of train wheel ultrasonic fault detection system, to simplify Structure, improves production efficiency.It is a further object of the present invention to provide a kind of train car with above-mentioned coupling water water feeding and draining device Wheel ultrasonic fault detection system.

To achieve these goals, the present invention provides following technical scheme:

A kind of coupling water water feeding and draining device of train wheel ultrasonic fault detection system, including:

For storing the coupling water tank of coupling water；

It is connected with described coupling water tank, and coupling water can be caused the tread water-supply structure of tread probe；

It is connected with described coupling water tank, and coupling water can be caused the inner side popped one's head in inside probe and second inside first Water-supply structure；

For reclaiming the recovery structure of coupling water；

Wherein, described tread water-supply structure includes: with the described tread water main coupling water tank connection, at least two and institute Stating the distributive pipe of tread water main connection, described distributive pipe is provided with the hole for water spraying to described tread probe water spray.

Preferably, described distributive pipe is four, and two described distributive pipes are positioned at the side of described tread water main, other two Individual described distributive pipe is positioned at the opposite side of described tread water main.

Preferably, described distributive pipe is provided with multiple described hole for water spraying.

Preferably, described distributive pipe divides water block to connect with described tread water main by tread.

Preferably, described inner side water-supply structure includes: all with described couple water tank connection first inside water main and the Water main inside two, the first feed pipe that at least two connects with water main inside described first, it is located at described first feed pipe And the first jet of water spray of popping one's head in inside described first, the second water supply that at least two connects with water main inside described second Pipe, is located at described second feed pipe and the second nozzle of water spray of popping one's head in inside described second.

Preferably, described first feed pipe is four, and a described first jet is located at described first feed pipe, two Individual described first jet is respectively arranged on the two ends of the length direction of described first carrier frame, and two other described first jet is equal It is located at the upper frame plate of described first carrier frame；

Described second feed pipe is four, and a described second nozzle is located at described second feed pipe, described in two Second nozzle is respectively arranged on the two ends of the length direction of described Second support framework, and two other described second nozzle is located at described The upper frame plate of Second support framework.

Preferably, described recovery structure includes:

For collecting the drainage box of the described coupling water at described tread probe；

For collecting inside described first first water receiving tank of the described coupling water at probe；

For collecting inside described second second water receiving tank of the described coupling water at probe；

Wherein, described drainage box covers in the outside of described tread probe, and the two ends of described drainage box are provided with can be with described The conduction hole that first water receiving tank connects with described second receiving slit.

Preferably, described recovery structure also includes: for accommodating the withdrawer of described coupling water, described first receiving slit and Described second water receiving tank all connects with described withdrawer.

Preferably, described withdrawer is trench.

The coupling water water feeding and draining device of train wheel ultrasonic fault detection system based on above-mentioned offer, present invention also offers A kind of train wheel ultrasonic fault detection system, this train wheel ultrasonic fault detection system includes coupling water water feeding and draining device, this coupling Heshui water feeding and draining device is coupling water water feeding and draining device described in above-mentioned any one.

The coupling water water feeding and draining device of the train wheel ultrasonic fault detection system that the present invention provides, by arranging and coupling water The tread water main of case connection, the distributive pipe connected with tread water main, and this distributive pipe are provided with hole for water spraying, so, by closing Removing the work puts the hole for water spraying on distributive pipe and distributive pipe, coupling water can be made to cover all probes of tread probe, it is achieved that concentrate Supply water, compared with prior art, water supply structure is set on the fixture of each probe and compares, be effectively simplified structure, improve production effect Rate.

Meanwhile, the coupling water water feeding and draining device of the train wheel ultrasonic fault detection system that the present invention provides, it is achieved that concentrate Supply water, in use reduce the probability that outlet is coupled the impurity blocking of water.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing In having technology to describe, the required accompanying drawing used is briefly described, it should be apparent that, the accompanying drawing in describing below is only this Inventive embodiment, for those of ordinary skill in the art, on the premise of not paying creative work, it is also possible to according to The accompanying drawing provided obtains other accompanying drawing.

The structural representation of the train wheel ultrasonic fault detection system that Fig. 1 provides for the embodiment of the present invention；

Tread in the coupling water water feeding and draining device of the train wheel ultrasonic fault detection system that Fig. 2 provides for the embodiment of the present invention Water-supply structure is in the mounting structure figure of tread carrier；

Fig. 3 is the structural representation that Fig. 2 conceals tread carrier frame；

Tread in the coupling water water feeding and draining device of the train wheel ultrasonic fault detection system that Fig. 4 provides for the embodiment of the present invention The structural representation of water-supply structure；

Fig. 5 is the front view of Fig. 2；

Fig. 6 is that the A-A of Fig. 5 is to sectional view；

Fig. 7 is the enlarged diagram of the part B of Fig. 6；

Inner side in the coupling water water feeding and draining device of the train wheel ultrasonic fault detection system that Fig. 8 provides for the embodiment of the present invention The part-structure schematic diagram of water-supply structure；

The coupling water water feeding and draining device of the train wheel ultrasonic fault detection system that Fig. 9 provides for the embodiment of the present invention reclaims The structural representation of structure；

Figure 10 is the structural representation of the first water receiving tank in Fig. 9；

Figure 11 is the structural representation of drainage box in Fig. 9.

In figure 1 above-11:

1 be tread probe, 2 be pop one's head in inside first, 3 be pop one's head in inside second, 4 be tread support, 5 for tread carrier frame Frame, 6 be tread water main, 7 be distributive pipe, 8 for tread divide water block, 9 be hole for water spraying, 10 be the first support, 11 be inside first Point water block, 12 be the first carrier frame, 13 be the first feed pipe, 14 be water main inside first, 15 be first jet, 16 be the One water receiving tank, 17 be drainage box, 18 for conduction hole.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Describe, it is clear that described embodiment is only a part of embodiment of the present invention rather than whole embodiments wholely.Based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under not making creative work premise Embodiment, broadly falls into the scope of protection of the invention.

As shown in figs. 1-7, the coupling water plumbing dress of the train wheel ultrasonic fault detection system that the embodiment of the present invention provides Put, including: coupling water tank, tread water-supply structure, inner side water-supply structure, recovery structure；Wherein, coupling water tank is used for storing coupling Water；Tread water-supply structure is connected with coupling water tank, and coupling water can cause tread probe 1；Inner side water-supply structure with couple Water tank is connected, and can cause coupling water to pop one's head in inside first and pop one's head in 3 inside 2 and second；Recovery structure is used for reclaiming coupling Water.

Above-mentioned tread water-supply structure includes: with the tread water main 6 coupling water tank connection, at least two and tread water main The distributive pipe 7 of 6 connections, this distributive pipe 7 is provided with the hole for water spraying 9 to tread probe 1 water spray.

The coupling water water feeding and draining device of train wheel ultrasonic fault detection system that the embodiment of the present invention provides, by arrange with The tread water main 6 of coupling water tank connection, the distributive pipe 7 connected with tread water main 6, and this distributive pipe 7 are provided with hole for water spraying 9, So, by the hole for water spraying 9 on reasonable Arrangement distributive pipe 7 and distributive pipe 7, coupling water can be made to cover all of tread probe 1 Probe, it is achieved that central water supply, arranges water supply structure compared with prior art on the fixture of each probe and compares, be effectively simplified knot Structure, improves production efficiency.

Meanwhile, the coupling water water feeding and draining device of the train wheel ultrasonic fault detection system that the embodiment of the present invention provides, it is achieved Central water supply, in use reduces the probability that outlet is coupled the impurity blocking of water.

Meanwhile, arranging hole for water spraying 9 on distributive pipe 7, the position of hole for water spraying 9 and quantity arrange flexibly, can be according to tread The layout of probe 1 changes, and so, couples water and sprays uniformly, it is possible to ensure coupling effect, ensure carrying out flaw detection effect and stablize Property.

Above-mentioned coupling water tank can be connected with train water equipment by water pump, consequently facilitating supply water.Certainly, it is possible to select coupling Heshui case connects with other water sources, it is achieved supply water.

In order to ensure coupling effect, it is provided with depurator in coupling water tank, it is achieved the purification to coupling water tank.

Preferably, above-mentioned tread water main 6 is arranged on the tread support 4 of tread probe 1, so, improves tread and supplies The steadiness of water-bound.

For size and the number of above-mentioned distributive pipe 7, need to be designed according to actual needs, as long as ensureing tread probe All probes of 1 can be coupled water and cover.Preferably, this distributive pipe 7 is four, and two distributive pipes 7 are positioned at tread master The side of water pipe 6, two other distributive pipe 7 is positioned at the opposite side of tread water main 6.Further, four distributive pipes 7 are about stepping on Face water main 6 is symmetrical.Certainly, also can according to the size of tread probe 1, the number selecting distributive pipe 7 is two, three, Six etc., it is not limited to above-described embodiment.

The size of hole for water spraying 9, position and number on distributive pipe 7, is designed according to actual needs, as long as ensureing tread All probes of probe 1 can be coupled water and cover, and pop one's head in needed for 1 carrying out flaw detection coupling meeting all of tread.Excellent Selection of land, distributive pipe 7 is provided with multiple hole for water spraying 9.Further, the hole for water spraying 9 on distributive pipe 7 is three, four, five, six Or seven etc..Certainly, it is possible to the number selecting hole for water spraying 9 is other values, it is not limited to above-described embodiment.

It should be noted that the number of the hole for water spraying 9 on each distributive pipe 7 can be identical, also different, enter according to actual needs Row design, this is not limited by the embodiment of the present invention.

Preferably, distributive pipe 7 divides water block 8 to connect with tread water main 6 by tread.Specifically, a point water block has cavity volume, The import of cavity volume connects with tread water main 6, and the outlet of cavity volume connects with distributive pipe 7.Can be understood by, the number of distributive pipe 7 Mesh is identical with the exit numbers of cavity volume.Certainly, it is possible to select distributive pipe 7 to connect assembly by other and connect with tread water main 6, It is not limited to above-described embodiment.

In order to reduce volume, minimizing takes up room, and prioritizing selection distributive pipe 7 is respectively positioned on the tread carrier frame of tread probe 1 The inside of frame 5, as shown in Figures 2 and 3.Said structure, is effectively improved the space adaptability of carrier carrying out flaw detection process.

As shown in Figure 8, above-mentioned inner side water-supply structure includes: all with water main 14 and the inside couple water tank connection first Water main inside two, the first feed pipe 13 that at least two connects with water main inside first 14, be located at the first feed pipe 13 and Inside first, the first jet 15 of probe 2 water spray, the second feed pipe that at least two connects with water main inside second, be located at Second feed pipe and the second nozzle of 3 water sprays of popping one's head in inside described second.

For first jet 15 and the position of second nozzle, size and number, it is designed according to actual needs, as long as protecting Pop one's head in inside card first pop one's head in inside 2 and second 3 all probes can be coupled water and cover, to meet all of first 3 carrying out flaw detection couplings of popping one's head in inside inner side probe 2 and all of second are required.Visit inside 2 and second owing to popping one's head in inside first 3 axial symmetry are arranged, then prioritizing selection the first feed pipe 13 and the second feed pipe axial symmetry are arranged, first jet 15 and the second spray Mouth axial symmetry is arranged.One the first feed pipe 13 is provided with a first jet 15, and one second spray is located at by second feed pipe Mouth.

In order to improve steadiness, inside first, water main 14 is arranged on the first support 10 of probe 2 inside first, in second Side water main be arranged on inside second pop one's head in 3 the second support on.So, it is simple to fixing inner side water-supply structure, also it is effectively improved The steadiness of water-supply structure inside.

Preferably, the first feed pipe 13 is four, and a first jet 15 is located at first feed pipe 13, two first Nozzle 15 is respectively arranged on the two ends of the length direction of the first carrier frame 12, and two other first jet 15 is respectively arranged on the first load The upper frame plate of body framework 12；Second feed pipe is four, and a second nozzle is located at second feed pipe, two second nozzles Being respectively arranged on the two ends of the length direction of Second support framework, two other second nozzle is all located at the added of Second support framework Plate.

It is understood that the upper frame plate of the first carrier frame 12, refer under normal mounting state, vertically first Frame plate above carrier frame 12, first jet 15 can be located at the top of frame plate, it is possible to is positioned at the lower section of frame plate.Second carries The upper frame plate of body framework, refers under normal mounting state, vertically the frame plate above Second support framework, and second nozzle can It is positioned at the top of frame plate, it is possible to be positioned at the lower section of frame plate.The first feed pipe 13 being positioned at the first carrier frame 12 takies spy Gap between gap between Tou, and probe and the first carrier frame 12, effectively reduces volume, reduces inner side and supplies water Space shared by structure.

Certainly, it is possible to the number selecting the first feed pipe 13 and the second feed pipe is other, such as, two, three, five Individual or six etc.；Also the two being configured with other structures optional, it is not limited to above-described embodiment.

For the ease of controlling to supply water, tread water-supply structure and inner side water-supply structure are respectively provided with electromagnetic valve, by electromagnetic valve control The flow of system coupling water.Specifically, tread water main 6 is serially connected with electromagnetic valve, and inside first, water main 14 is serially connected with electromagnetic valve, the Inside two, water main is serially connected with electromagnetic valve.Further, also can be inside tread water main 6, first inside water main 14, second Water main concatenates choke valve respectively, is easy to further regulate flow.

Preferably, above-mentioned first feed pipe 13 divides a water block 11 to connect with water main inside first 14 inside first, the Two feed pipes divide water main inside water block and second to connect inside second.

In order to avoid coupling water splashes on equipment, equipment is played waterproofing protection effect, recovery structure is set.This recovery is tied There is various structures in structure, in order to simplify structure, the above-mentioned recovery structure of prioritizing selection includes: drainage box 17, the first water receiving tank 16, the Two water receiving tanks；Wherein, drainage box 17 covers in the outside of tread probe 1, and this drainage box 17 is popped one's head in the coupling at 1 for collecting tread Water, and the two ends of drainage box 17 are provided with the conduction hole 18 that can connect with the first water receiving tank 16 and the second receiving slit；First water receiving Groove 16 is for collecting the coupling water popped one's head in inside first at 2；Second water receiving tank is for collecting the coupling popped one's head in inside second at 3 Water, as shown in figs. 9-11.

It is understood that the first water receiving tank 16 is located at the inner side of probe 2 inside first, in the second receiving slit is located at second The inner side of side probe 3.Further, the first receiving slit 16 and the second receiving slit axial symmetry are arranged.The inner side of probe 2 inside first Referring to probe 2 side of probe 3 inside second inside first, inside second, the inner side of probe 3 refers to probe 3 inside second The side of probe 2 inside first.

In above-mentioned recovery structure, drainage box 17 collects the coupling water on tread probe 1, by conduction hole 18, imports first Water receiving tank 16 or the second water receiving tank；Meanwhile, the first water receiving tank 16 receives the coupling water inside first on probe 2, the second water receiving Coupling water on probe 3 inside groove storage second.

Above-mentioned recovery structure, it is to avoid coupling water splashes on equipment, thus equipment is served waterproof action, it is to avoid set The generation of standby phenomenon of getting rusty；It addition, also avoid water to flow on ground, it is ensured that the sanitation and hygiene of work place；Meanwhile, improve The aesthetic property of equipment and sight.

Above-mentioned drainage box 17 needs to cover on the outside of tread probe 1, then this drainage box 17 has an opening, to ensure to step on Face probe 1 detects, and i.e. the opening of this drainage box 17 is towards the peripheral side of train wheel.

For the ease of drain and installation, the curved box of prioritizing selection drainage box 17, so, this drainage box 17 more conforms to step on The profile of face probe 1, consequently facilitating drain and installation.

Above-mentioned conduction hole 18 can connect with the first water receiving tank 16 and the second receiving slit, specifically, when tread probe 1 and the When inside one, probe 2 is positioned at the same side, conduction hole 18 connects with the first receiving slit 16；Probe 3 inside tread probe 1 and second When being positioned at the same side, conduction hole 18 connects with the second receiving slit.

For the ease of drain, conduction hole 18 is positioned at the inner side of drainage box 17, as shown in figure 11.

For the ease of reclaiming, above-mentioned recovery structure also includes: for accommodating the withdrawer of coupling water, the first receiving slit 16 He Second water receiving tank all connects with withdrawer.Specifically, the bottom of the first receiving slit 16 is provided with drainage tube, is drained into back by coupling water Receive device；In like manner, the bottom of the second receiving slit also has drainage tube, and coupling water is drained into withdrawer.

In order to reduce parts, prioritizing selection withdrawer is trench.Certainly, it is possible to selecting withdrawer is other containers, such as Accumulator tank etc., it is not limited to above-described embodiment.

Coupling water water feeding and draining device based on the train wheel ultrasonic fault detection system that above-described embodiment provides, the present invention is real Executing example and provide a kind of train wheel ultrasonic fault detection system, this train wheel ultrasonic fault detection system includes coupling water plumbing Device, this coupling water water feeding and draining device is the coupling water plumbing dress of train wheel ultrasonic fault detection system described in above-described embodiment Put.

Owing to the coupling water water feeding and draining device of above-mentioned train wheel ultrasonic fault detection system has above-mentioned technique effect, above-mentioned Train wheel ultrasonic fault detection system has the coupling water water feeding and draining device of above-mentioned train wheel ultrasonic fault detection system, the most above-mentioned Train wheel ultrasonic fault detection system also has correspondingly technique effect, repeats no more herein.

Described above to the disclosed embodiments, makes those skilled in the art be capable of or uses the present invention.To this The multiple amendment of a little embodiments will be apparent from for a person skilled in the art, and generic principles defined herein can With without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention will not be limited It is formed on the embodiments shown herein, and is to fit to consistent with principles disclosed herein and features of novelty the widest Scope.

Claims (10)

1. the coupling water water feeding and draining device of a train wheel ultrasonic fault detection system, it is characterised in that including:

For storing the coupling water tank of coupling water；

It is connected with described coupling water tank, and coupling water can be caused the tread water-supply structure of tread probe (1)；

It is connected with described coupling water tank, and coupling water can be caused the interior of (3) of popping one's head in inside pop one's head in inside first (2) and second Side water-supply structure；

For reclaiming the recovery structure of coupling water；

Wherein, described tread water-supply structure includes: with the described tread water main (6) coupling water tank connection, at least two and institute Stating the distributive pipe (7) that tread water main (6) connects, described distributive pipe (7) is provided with the hole for water spraying sprayed water to described tread probe (1) (9)。

Coupling water water feeding and draining device the most according to claim 1, it is characterised in that described distributive pipe (7) is four, two Described distributive pipe (7) is positioned at the side of described tread water main (6), and two other described distributive pipe (7) is positioned at described tread master The opposite side of water pipe (6).

Coupling water water feeding and draining device the most according to claim 1, it is characterised in that described distributive pipe (7) is provided with multiple institute State hole for water spraying (9).

Coupling water water feeding and draining device the most according to claim 1, it is characterised in that described distributive pipe (7) is divided by tread Water block (8) connects with described tread water main (6).

Coupling water water feeding and draining device the most according to claim 1, it is characterised in that described inner side water-supply structure includes: all With described couple water tank connection first inside water main inside water main (14) and second, inside at least two and described first The first feed pipe (13) that water main (14) connects, is located at described first feed pipe (13) and pops one's head in (2) inside described first The first jet (15) of water spray, the second feed pipe that at least two connects with water main inside described second, it is located at described second The second nozzle sprayed water in feed pipe and pop one's head in inside described second (3).

Coupling water water feeding and draining device the most according to claim 5, it is characterised in that described first feed pipe (13) is four Individual, a described first jet (15) is located at described first feed pipe (13), and two described first jet (15) set respectively In the two ends of the length direction of described first carrier frame (12), two other described first jet (15) is all located at described first The upper frame plate of carrier frame (12)；

Described second feed pipe is four, and a described second nozzle is located at described second feed pipe, two described second Nozzle is respectively arranged on the two ends of the length direction of described Second support framework, and two other described second nozzle is all located at described The upper frame plate of two carrier frames.

7. according to the coupling water water feeding and draining device described in any one in claim 1-6, it is characterised in that described recovery structure Including:

For collecting the drainage box (17) of the described coupling water at described tread probe (1) place；

For collecting first water receiving tank (16) of the described coupling water at (2) place of popping one's head in inside described first；

For collecting the second water receiving tank of the described coupling water at (3) place of popping one's head in inside described second；

Wherein, described drainage box (17) covers in the outside of described tread probe (1), and the two ends of described drainage box (17) are provided with can The conduction hole (18) connected with described first water receiving tank (16) and described second receiving slit.

Coupling water water feeding and draining device the most according to claim 7, it is characterised in that described recovery structure also includes: be used for Accommodating the withdrawer of described coupling water, described first receiving slit (16) all connects with described withdrawer with described second water receiving tank.

Coupling water water feeding and draining device the most according to claim 8, it is characterised in that described withdrawer is trench.

10. a train wheel ultrasonic fault detection system, including coupling water water feeding and draining device, it is characterised in that described coupling water Water feeding and draining device is to couple water water feeding and draining device in claim 1-9 described in any one.